Dr. Kailas Tehare (Postdoc, PhD Physics, M.Phil, M.Sc. Physics)

Citations – 288
h-index – 10
i10-index – 10

Main Research Areas: 

Solar cell, Supercapictor, Gas sensor applications.


Kailas Tehare obtained M.Sc. (2008), M.Phil. (2012), & PhD (2015) in Physics from the School of Physical Sciences, Swami Ramanand Teerth Marathwada University, Nanded. During PhD worked as visiting fellow at Hanyang University, Seoul, South Korea. I completed my Post-doctorate (2016-18) from Shenzhen University, Shenzhen, China. During my Post-doctorate, I worked as visiting fellow (2017-18) at the National University of Singapore (NUS), Singapore. After that, he joined as Assistant Professor at Dr. Ajeenkey D. Y. Patil School of Engineering, Lohegaon, Pune – 412105.

Research Description:

His research is focused on the synthesis of various nanostructures by using various techniques like Chemical Bath Deposition (CBD), Successive Ionic Layer Adsorption and Reaction (SILAR), Spray pyrolysis, spin coating, etc and employs these nanostructures for various applications such as solar cell, Supercapictor, gas sensor etc.

Selected Publications:

  1. Recent developments in polypyrrole/manganese oxide-based nanocomposites for thin film electrodes in supercapacitors: a minireview (Paresh S Gaikar, Kedar S Kadu, Kailas K Tehare, Gurumeet C Wadhawa, Sami H Mahmood, Trimurti L Lambat, 2022, Nanoscale Advances)    Published
  2. Ambient temperature operable Bi-Co ferrite NO2 sensors with high sensitivity and selectivity (S U Mutkule, K K Tehare, S K Gore, K C Gunturu, R S Mane, 2019, Materials Research Bulletin, 115, 150-158)   Published
  3. Chemical bath deposition of ZnO films at low pH for high chemoresistivity towards NO2 gas (S Mutkule, S Navale, V Patil, K Tehare, X Liu, K C Gunturu, R Mane, 2018, Materials Research Express 5 (7), 075021)  Published
  4. Enhanced DSSCs performance of TiO2 nanostructure by surface passivation layers (K K Tehare, S T Navale, F J Stadler, Z He, H Yang, X Xiong, X Liu et al., 2018, Materials Research Bulletin, 99, 491-495)  Published
  5. Low-temperature chemical synthesis of rutile and anatase mixed phase TiO2 nanostructures for DSSCs photoanodes (K K Tehare, S S Bhande, S U Mutkule, F J Stadler, J P Ao, R S Mane, X Liu, 2017, Journal of Alloys and Compounds, 704, 187-192)  Published
  6. Electrochemical supercapacitors of cobalt hydroxide nanoplates grown on conducting cadmium oxide base-electrodes (K K Tehare, M K Zate, S T Navale, S S Bhande, S L Gaikwad, S A Patil et al., 2017, Arabian Journal of Chemistry 10 (4), 515-522)  Published
  7. Solid-state synthesis strategy of ZnO nanoparticles for the rapid detection of hazardous Cl2 (S T Navale, V V Jadhav, K K Tehare, R U R Sagar, C S Biswas, M Galluzzi et al., 2017, Sensors and Actuators B: Chemical, 238, 1102-1110)  Published
  8. Polyaniline-cobalt hydroxide hybrid nanostructures and their supercapacitor studies (J H Shendkar, M Zate, K Tehare, V V Jadhav, R S Mane, M Naushad et al., 2016, Materials Chemistry and Physics, 180, 226-236)  Published
  9. Hexamethylenetetramine-mediated TiO2 films: Facile chemical synthesis strategy and their use in nitrogen dioxide detection (S T Navale, KK Tehare, S F Shaikh, V B Patil, B N Pawar, M Naushad et al., 2016, Materials Letters, 173, 9-12)  Published
  10. Synthesis and electrochemical supercapacitive performance of nickel–manganese ferrite composite films (M K Zate, S M F Shaikh, V V Jadhav, K K Tehare, S S Kolekar, R S Mane et al., 2015, Journal of analytical and applied pyrolysis, 116, 177-182)  Published
  11. Significance of compact layers on DSSCs performance of chemically deposited TiO2-based Dye-sensitized solar cells (V S Jadhav, S S Bhande, K K Tehare, S L Gaikwad, R S Mane, 2015, Int. J. Eng. Sci., 4, 30-34)  Published
  12. DSSCs synergic effect in thin metal oxide layer-functionalized SnO2 photoanodes (S S Bhande, D V Shinde, K K Tehare, S A Patil, R S Mane, M Naushad et al., 2014, Journal of Photochemistry and Photobiology A: Chemistry, 295, 64-69)  Published
  13. A simple, room temperature, solid-state synthesis route for metal oxide nanostructures (S A Patil, D V Shinde, D V Patil, K K Tehare, V V Jadhav, J K Lee, R S Mane et al., 2014, Journal of Materials Chemistry A, 2 (33), 13519-13526)  Published
  14. Effect of a deposition container on the nanostructural growth and DSSC application of rutile TiO 2 (K K Tehare, M K Zate, S S Bhande, S A Patil, S L Gaikwad, S J Yoon et al., 2014, Journal of Materials Chemistry A, 2 (2), 478-483)  Published




Last Updated on March 5, 2023 by Sonkamble Satish